JPH0646118Y2 - Cordless phone - Google Patents

Description

[Detailed Description of the Invention] (a) Industrial field of application The present invention is a cordless system in which a PLL used in an MCA (multi-channel access) system can be operated without trouble even if the power supply voltage is temporarily interrupted. Regarding phones.

(B) Prior art In a wireless telephone, as described in, for example, Japanese Patent Laid-Open No. 63-48926, a large number of frequency channels are set in advance, and an empty channel that is not used is searched for during a call. The MCA method that enables the

In the MCA method, channel data is supplied from a microcomputer to a PLL (Phase Locked Loop), the division ratio of the PLL program counter is selected, the oscillation frequency of the variable frequency oscillator is determined, and the local frequency of the receiving circuit is determined. The oscillating frequency and the carrier signal of the transmitting circuit are selected, and an empty channel is searched for to make a call.

(C) Problems to be solved by the invention As described above, in the MCA type cordless telephone, channel data is supplied from the microcomputer to the PLL, and thereby the frequency division ratio of the PLL program counter is controlled,
A carrier frequency signal or a local oscillation signal is oscillated from the variable frequency oscillation circuit. When the channel data is supplied from the microcomputer and the frequency division ratio of the PLL program counter is set, the frequency division ratio is latched by the latch circuit, and the variable frequency is maintained even after the channel data from the microcomputer is cut off. The oscillator circuit continues to oscillate at the selected frequency.

By the way, the voltage from the battery is momentarily interrupted for some reason, or the statically erases the channel data latched in the PLL, changing the local oscillation frequency or carrier frequency and disabling the call. May be cut off.

Therefore, it is conceivable to back up the frequency division ratio of the program counter of the PLL, but it is impossible to back up because a large current flows in the PLL. On the other hand, a microcomputer has a small current capacity and is easily backed up by the charge current of the capacitor.

According to the present invention, the microcomputer detects that the channel data latched in the PLL is erased, supplies the channel data to the PLL again from the microcomputer, and sets the division ratio of the program counter to the above value. The present invention provides a cordless telephone in which a call is not interrupted due to a temporary interruption of power supply voltage or generation of static electricity.

(D) Means for Solving the Problems The cordless telephone of the present invention has a variable frequency oscillator that oscillates a local oscillation signal for reception and a carrier signal for transmission, and an oscillation frequency for the variable frequency oscillator by searching for an empty channel. And a control circuit that supplies channel data for searching an empty channel to the PLL and that backs up the state by the charge voltage of the capacitor.

(E) Operation Since the cordless telephone of the present invention has the above-described configuration, the control circuit controls the PLL to search for an empty channel, and after the search, the frequency division ratio of the program counter latched by the PLL is used. The variable frequency oscillator continues to oscillate, and when the frequency division ratio of the program counter that has been latched due to power interruption is changed, it is detected by the control circuit by the reception signal from the reception circuit and stored by the backup from the control. The supplied channel data is supplied to the PLL again, the division ratio of the program counter of the PLL is returned to the original division ratio, and the call is continued.

(F) Embodiment An embodiment of the cordless telephone of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram of a slave unit. (1) is an antenna, (2) is a shared circuit for sharing the antenna (1) for reception and transmission, and (3) is a shared circuit (2). The connected receiving circuit mixes a high frequency amplifier for amplifying a received signal from the shared circuit (2), a high frequency received signal amplified by the high frequency amplifier and a local oscillation signal from a variable frequency oscillator described later, and The mixer includes a mixer that converts a high-frequency reception signal into an intermediate-frequency reception signal, an intermediate-frequency amplifier that amplifies the intermediate-frequency signal, and a demodulator that FM demodulates the intermediate-frequency reception signal and extracts a voice signal. Reference numeral (4) is an amplifier circuit for amplifying the demodulated audio signal, and a speaker (5) is connected to the output. (6) is a microphone (7)
An amplifier circuit for amplifying the audio signal from the device, (8) is a carrier signal from the variable frequency oscillator circuit, which is the amplified audio signal.
A modulation circuit for FM modulation, (9) a transmission circuit for amplifying and transmitting the modulated carrier signal, (10) a variable frequency oscillation circuit for oscillating the local oscillation signal and the carrier signal, (11)
As shown in FIG. 3, the reference counter (13) for dividing the reference frequency signal from the reference oscillator (12) by the PLL,
A programmable counter (15) that divides the local oscillation signal from the variable frequency oscillation circuit (10) at a division ratio determined by the division data of the shift register (14) that also serves as a latch, and the reference counter (13). And a phase comparator (16) for comparing the phases of the signals divided by the programmable counter (15), and a low-pass filter (1
7) and. Reference numeral (18) is a control circuit composed of a microcomputer, which supplies channel data to the shift register (14). The control circuit (18) is operated by the voltage from the battery (19) and is backed up by the charge voltage of the capacitor (20). Fig. 2 is a block diagram of the master unit.
1) has almost the same configuration as a child device, and is connected to a telephone line (L ₁ ) (L ₂ ) through a speech network circuit (22).

Next, the operation of the cordless telephone of the present invention will be described.

In order to talk with the other party from the slave unit through the master unit, operate the hook switch to put the slave unit into the call state. Then, the channel data preset in the control circuit (18) of the slave unit is called, and the shift register (1
4) to shift the shift register (14) and divide the frequency of the programmable counter (15) according to the channel data. Variable frequency oscillators by it (10)
The oscillation signal from is divided by the set dividing ratio. On the other hand, the reference frequency signal from the reference oscillator (12) is divided by the reference counter (13) and the phase comparator (1
Phase comparison is performed in 6), and a signal corresponding to the phase difference is generated. The signal is fed back to the variable frequency oscillator (10) through the low pass filter (17) and the oscillation frequency is changed. This is performed until the phase difference between the oscillation signal divided by the programmable counter (15) and the reference frequency signal divided by the reference counter (13) becomes zero, and the variable frequency oscillator (10) changes the modulation circuit ( The carrier wave signal supplied to 8) has a control channel frequency of 254.4250 MHz. After confirming the availability of the control channel, the carrier signal is modulated with a code determined for each slave unit, amplified by the transmission circuit (9), supplied to the antenna (1) through the shared circuit (2), and transmitted. Since the master unit confirms the availability of the call channel every second, the carrier signal transmitted from the slave unit is received and the code is confirmed. If the code is correct, the carrier signal corresponding to the slave unit signal is detected. It transmits the carrier signal (380 / 7750MHz) of the specified master unit control channel and shifts to the call channel.

On the other hand, the slave unit receives the carrier signal from the master unit as an antenna (1).
And to the receiving circuit (3) via the shared circuit (2), the mixer then outputs a predetermined intermediate frequency difference from the variable frequency oscillator (10) to the carrier signal from the master unit. Since the local oscillation signal is supplied, it is confirmed to the control circuit (18) that the intermediate frequency signal is generated from the local oscillator and the master unit responds. Then, the slave unit shifts to the call channel, sequentially supplies the channel data determined by the control circuit (18) to the shift register (14), and changes it to the division ratio of the programmable counter (15). In response to this, the oscillation frequency of the variable frequency oscillator (10) also sequentially changes, and the mixer of the receiving circuit (3) is sequentially supplied with local oscillation signals having an intermediate frequency difference with respect to the carrier signals of the respective communication channels, and the empty channels are supplied. To search. When an empty channel is searched, the confirmation signal is transmitted to the master unit and the supply of channel data from the control circuit (18) is stopped, but the frequency division ratio of the programmable counter (15) at that time is the shift register. Since it is latched by (14), the programmable counter (15) holds the frequency division ratio at that time.

Then, when the dial circuit is operated, the control circuit (18) is controlled and a dial signal is generated. The modulating circuit (8) modulates the carrier signal of the dial signal and transmits it to the master unit. The dial signal received by the master unit is transmitted to the other party through the telephone line (L ₁ ) (L ₂ ) to generate a call signal.

When the other party who listens to the calling signal goes off-hook, the call is started. Therefore, the microphone of the handset (7)
A conversation spoken toward is converted into a voice signal by a microphone (7), amplified by an amplifier circuit (6), then FM modulated by the modulator circuit (8) and shared by a transmitter circuit (9). The signal is transmitted from the antenna (1) via the circuit (2).

On the other hand, the received carrier wave signal is mixed with the local oscillation signal supplied at that time in the receiving circuit (3) and converted into an intermediate frequency signal, and then demodulated to generate a voice signal. The audio signal is amplified by the amplifier circuit (4) and then drives the speaker (5).
In this way, the child device can communicate with the other party via the parent device.

By the way, the programmable counter (1
The division ratio of 5) is latched by the shift register (14), but it cannot be backed up because a relatively large current flows through the shift register (14). Therefore, even if the battery (19) is momentarily displaced from the terminal due to vibration or the like, the channel data latched in the shift register (14) is lost. Therefore, the frequency division ratio of the programmable counter (15) also changes, and the oscillation frequency of the variable frequency oscillator (12) also shifts, making it impossible to make a call and opening the telephone line (L ₁ ) (L ₂ ). . On the other hand, the control circuit (11) stops supplying channel data to the shift register (14) because the control circuit (11) uses it for other control when the empty channel search is completed, but the channel data at that time is stored, and Since the control circuit (18) is connected to the backup capacitor (20), even if the voltage from the battery (19) is cut off momentarily, it was still charged with the voltage from the battery (19). It is backed up by the charge voltage of the capacitor (20) and the channel data is retained.

Therefore, according to the present invention, the dividing ratio of the programmable counter (15) is changed by the instantaneous cutoff of voltage, and when the receiving circuit (3) cannot receive the signal from the other party, the receiving circuit (3) receives the signal. Therefore, the demodulated signal, that is, the S meter output disappears. The disappearance of the S meter output is detected by the control circuit (18), and when the disappearance of the S meter output is detected, the channel data stored and retrieved from the control circuit (18) is re-registered in the shift register ( 14), and the shift register (1
4) is shifted again and the frequency division ratio of the programmable counter (15) is returned to the value before the power was cut off, and the call is continued.

(G) Effect of the invention As described above, the cordless telephone of the present invention detects that the channel data latched in the PLL is lost due to the momentary interruption of the power supply voltage and the communication becomes unusable, Since the channel data retrieved by the control circuit until then is supplied to the PLL, it is possible to prevent the telephone line from being opened during a call.

Further, since the control circuit that consumes less current is used for the backup, the capacitor for the backup may have a small capacity.

[Brief description of drawings]

1 is a block diagram of a cordless telephone of the present invention, FIG. 2 is a block diagram of a parent device of the cordless telephone of the present invention, and FIG. 3 is a block of a PLL part used in the cordless telephone of the present invention. It is a figure. Description of main drawing numbers (3) ... Reception circuit, (4) ... Amplification circuit, (8) ... Modulation circuit, (9) ... Transmission circuit, (10) ... Variable frequency oscillation circuit,
(11) ... PLL, (18) ... control circuit, (19) ... battery, (20) ... capacitor.

Claims (1)

[Scope of utility model registration request] 1. A master unit, which is connected to a telephone line and has a transmission circuit and a reception circuit, and a slave unit, which has a reception circuit and a transmission circuit that wirelessly exchange signals with the transmission circuit and the reception circuit. In a cordless telephone configured to perform a transmitting / receiving operation by searching one empty channel from a plurality of channels having a predetermined frequency, a local oscillation signal for performing the receiving operation and a carrier wave for performing the transmitting operation. A variable frequency oscillator that oscillates a signal,
A PLL that searches for an empty channel and generates a control signal that determines the oscillation frequency of the variable frequency oscillator; and a control circuit that supplies channel data for searching for an empty channel to the PLL and that state is backed up by the charge voltage of the capacitor. Is provided in the slave unit, the empty circuit is searched by the control of the PLL by the control circuit, and after the search, the variable frequency oscillator is oscillated based on the division ratio of the program counter latched in the PLL, and the power is shut off. When the frequency division ratio of the program counter latched at is changed, the change of the frequency division ratio is detected by the control circuit based on the signal obtained from the receiving circuit, and stored in the control circuit. Channel data to the PLL again, and the program counter Cordless telephone, characterized in that so as to return to the division ratio of the basis of the division ratio.